The control of DNA replication in hybrids between neutrophils and fibroblasts.

DNA synthesis regulation in heterokaryons between mouse neutrophils and cultured cells of various proliferative potentials has been studied. The following features have been found. Both immortalized and non-immortalized cells can reactivate DNA synthesis in neutrophil nuclei. The reactivation ability of cultured cells increases after immortalization and is not changed by further transformation. Neutrophils inhibit the entry of cultured cell nuclei into S phase and have no effect on ongoing DNA synthesis. Malignant cells are much less sensitive to the inhibitory action of neutrophils than non-malignant ones. Non-malignant immortalized cells are as sensitive to this effect as non-immortalized cells. Neutrophil karyoplasts do not influence DNA synthesis in partner cultured cell nuclei. Cycloheximide pretreatment of neutrophils drastically diminishes their inhibitory effect.

[Positive and negative regulation of replication in hybrid cells]. / Pozitivnaia i negativnaia reguliatsiia replikatsii v gibridnykh kletkakh.

DNA replication blockage in various differentiated cells was investigated on the model of heterokaryons. Two distinct types of DNA synthesis regulation in heterokaryons "differentiated cell + proliferating cell" were revealed: I. Neutrophils and nucleated erythrocytes efficiently prevented the entry of non-malignant proliferating cells nuclei into the S-period but usually failed to substantially inhibit the replication in malignant cells nuclei. Both "mortal" and immortalized proliferating cells activated the DNA synthesis in neutrophil and chicken erythrocyte nuclei. II. Macrophages did not influence the DNA synthesis in the nuclei of non-malignant cells in heterokaryons but drastically inhibited that in the nuclei of malignant cells. Only immortalized cells reactivated DNA synthesis in the nuclei of macrophages. These data show that the mechanisms maintaining differentiated cells in non-proliferating state are not uniform. Nucleated erythrocytes were shown to suppress the duplication of centrioles in partner cells. The possibility of the blockage of DNA replication upon the fusion of two proliferating cells (fibroblast + leukemia cell) was demonstrated for the first time in the present work. The influence of various oncogenes upon the regulation of DNA synthesis in heterokaryons was investigated in detail. New modifications of the methods of cell fusion, enucleation and heterokaryon identification were proposed.

[DNA synthesis in heterokaryons obtained by the fusion of polymorphonuclear leukocytes and cultured cells possessing different proliferative potentials]. / Sintez DNK v geterokarionakh, poluchennykh pri sliianii segmentoiadernykh leikotsitov i kul'tiviruemykh kletok, obladaiushchikh razlichnym proliferativnym potentsialom.

Heterokaryons between terminally differentiated polymorphonuclear leukocytes (PL) and culture cells of different proliferative potentials: mouse and rat embryo fibroblasts (EFM, EFR); immortal cells NIH 3T3 and E2; malignant cells NCC2, L929, He239 and SV 3T3,--were obtained by means of electrofusion. Radioautographic study of 3H-thymidine incorporation in the nuclei of heterokaryons showed that all the cells taken for fusion were able to induce reactivation of DNA synthesis in PL nuclei, however, with different rates: 7-37% for EFM and NIH 3T3 and 20-40% for malignant cells. The presence of oncogenes Elan in E2 cells and ras in NCC2 cells increased the rate of PL reactivation approximately twice as compared with the cells of original lines (EFR and NIH 3T3, correspondingly). In parallel to reactivation of DNA synthesis in PL nuclei inhibition of the synthesis in culture cell nuclei in the same heterokaryons was found. The rate of inhibition was about 70% for non-malignant and 23, 40 and 18% for NCC2, L and SV 3T3 cells, respectively. He239 cells, transformed by a temperature-dependent mutant of virus SV40 showed at permissive temperature the increased capacity of inducing reactivation of PL nuclei, though He239 cells susceptibility to inhibitory action of PL nuclei did not change with temperature. According to the behaviour in heterokaryons PL were found to be similar to chick erythrocytes, but differing from them by a pronounced inhibiting effect upon DNA synthesis in the nuclei of malignant cells.